RU2231195C1 - Cooling system of electric machine - Google Patents

Abstract

FIELD: electrical engineering, manufacture of electric machines.

SUBSTANCE: cooling system of electric machine has stator 1 with winding cooled by insulation fluid and separated from rotor 2 by insulation cylinder 3 with cooling tubes built into its internal surface. Rotor is cooled by air which is cooled by cooling tubes 7 is sequence. Tubes are built into cylinder and water coolers 6 are located in stator. Water circulates through cooling tubes 7 in opposition by supply of water into tubes from different sides of cylinder in turn.

EFFECT: enhanced operational reliability of electric machine, increased effectiveness of its cooling.

1 dwg

Description

The invention relates to the field of electrical engineering, for cooling an electric machine and is intended for use in large electrical machines, in particular in turbogenerators.

A known turbogenerator cooling system, the closest in technical solution and the achieved result, adopted as a prototype, in which the stator winding is cooled by an insulating liquid, and the rotor separated from the stator by an insulating cylinder located in the air gap and having cooling tubes spiral-wound on the inner surface, rotates inside the cylinder at very low air pressure. To create a vacuum in the space in which the rotor rotates, it is connected to a vacuum pump. To circulate losses from the surface of the rotor, water circulates through cooling tubes built into the insulating cylinder. In this case, the supply and discharge of cooling water is performed on different sides of the cylinder. The rotor winding also has water cooling (Swiss patent, No. 428919, CL N 02 K 9/16, 1967).

The disadvantage of this cooling system of an electric machine is that during water cooling of the rotor winding in the circulation path from the action of centrifugal forces during rotation, high fluid pressure is created, which complicates the design of the machine and reduces its reliability, because violation of the density of the path leads to an emergency stop of the machine. The need to create a vacuum and maintain air pressure in the space in which the rotor rotates below atmospheric also complicates the design of the electric machine, requiring the use of a special vacuum system and special shaft seals. Placing the supply and discharge of coolant on different sides of the cylinder causes an uneven distribution of temperature in the air gap along the length of the cylinder and, therefore, along the length of the rotor, which reduces the cooling efficiency.

The objective of the present invention is to increase the reliability of the machine and its cooling efficiency.

The technical result is achieved by the fact that in the cooling system of an electric machine containing a stator with a winding cooled by a fluid, separated from the rotor by an insulating cylinder with cooling tubes integrated on its inner surface, and the rotor cooled by air, air cooling is performed sequentially by cooling tubes in the cylinder and water coolers in the stator, and the circulation of fluid through the cooling tubes in the cylinder is carried out counter with alternating water supply from different sides of the cylinder.

In the drawing, the proposed cooling system of an electric machine is shown in longitudinal section in a schematic view.

The stator with the liquid-cooled winding 1 is separated from the rotor 2 by an insulating cylinder 3. Inside the space 4, limited by the insulating cylinder 3, a rotor 2 is placed. Two symmetrically located fans 5 are installed on the rotor 2 for circulating cooling air 5. Water coolers 6 are installed in the stator behind the fans 5. On the inner surface of the insulating cylinder 3, cooling tubes 7 are inserted into which water is supplied. The water supply to the cooling tubes 7 is carried out from the collectors 8 located on opposite sides of the cylinder 3. The heated water from the cooling tubes 7 is drained into the collectors 9, respectively, on the other side of the cylinder 3. Sub-channels 10 are made for gas circulation in the rotor shaft 2, and the rotor windings and rotor wedges have ventilation holes 11. In the frontal parts of the rotor winding there are also ventilation ducts 12.

The proposed cooling system operates as follows. When cooling the stator winding 1 with liquid, the cooling of the rotor 2, rotating inside the cylinder 3, is carried out by air circulating in a closed circuit. In this case, the cooled air passing under the pressure of the fans 5 through the water coolers 6 installed in the stator is directed under the frontal parts of the rotor winding and the sub-ventilation ducts 10. Then, the air heated in the rotor 2 is discharged into the air gap of the machine 4 between the cylinder 3 and the rotor 2 through ventilation holes 11 in the winding of the rotor 2 and rotor wedges, as well as through the ventilation channels 12 in the frontal part of the winding.

To cool the heated air in the air gap 4, the cooling tubes 7 in the cylinder are alternately supplied with water from the supply manifolds 8 from different sides of the cylinder with water being drained into the drain manifolds 9, respectively, on the other side of the cylinder.

The air is cooled sequentially as it passes through the cooling tubes 7 in the cylinder, and then through the water coolers 6 built into the end parts of the stator.

The cooling of the air heated in the rotor in the coolers installed in the cylinder near the place where the losses in the rotor are highlighted and the counter-circulation of the coolant through the cooling tubes in the cylinder reduces the temperature gradients and evens out the thermal field of the air gap of the machine and, together with the subsequent cooling of the air by the coolers in the stator, increases machine reliability and cooling efficiency.

Claims (1)

The cooling system of an electric machine, comprising a stator with a winding cooled by an insulating liquid, separated from the rotor by an insulating cylinder with cooling tubes integrated on its inner surface, and an air-cooled rotor, characterized in that the air is cooled sequentially by cooling tubes in the cylinder and water coolers in stator, and the circulation of water through the cooling tubes in the cylinder is carried out counter with the alternate supply of water into the tubes from different sides of the cylinder.